Golomb Ruler Based Discrete Frequency Multimodal Continuous Wave THz Spectroscopy System

2019 Second International Workshop on Mobile Terahertz Systems (IWMTS) Pub Date : 2019-07-01 DOI:10.1109/IWMTS.2019.8823651

A. Gerling, Lennart Becke, S. Tonder, M. Hofmann, J. Balzer, C. Brenner

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Abstract

Photonic Terahertz systems covering a broad frequency range are a versatile tool for non-destructive testing and thickness determination. The advantage of these systems to measure amplitude and phase is usually accompanied by a certain complexity of the laser source or the THz parts of the setup. A costeffective THz system which enables a fast scan over a broad frequency range would be beneficial for many applications in the THz regime. We build a system with standard telecommunication components to accomplish a frequency scan on discrete frequencies over a broad frequency range, which is usually not feasible with non-tunable monolithic diode lasers. This paper describes the main considerations for this setup and shows a proof of principle operation, as well as the requirements for upscaling the system to wider frequencies ranges and more emission lines. It is shown that with 5 diode lasers we were able to generate 10 discrete emission lines in the frequency range from 50GHz to 1170GHz. The system has the potential to accomplish high scanning speeds with no tunable elements.

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基于Golomb尺的离散频率多模态连续波太赫兹光谱系统

光子太赫兹系统覆盖了广泛的频率范围，是无损检测和厚度测定的通用工具。这些系统测量幅度和相位的优势通常伴随着激光源或太赫兹部分设置的一定复杂性。一个具有成本效益的太赫兹系统能够在宽频率范围内进行快速扫描，这对太赫兹系统的许多应用都是有益的。我们构建了一个具有标准电信组件的系统，以在广泛的频率范围内完成对离散频率的频率扫描，这对于不可调谐的单片二极管激光器通常是不可行的。本文描述了该设置的主要考虑因素，并展示了原理操作证明，以及将系统升级到更宽的频率范围和更多的发射线的要求。结果表明，使用5个二极管激光器，我们能够在50GHz到1170GHz的频率范围内产生10条离散的发射线。该系统具有实现高扫描速度而无需可调元件的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 Second International Workshop on Mobile Terahertz Systems (IWMTS)

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